Pole Placement and Robust Adjustment of Power Systems Stabilizers through Linear Matrix Inequalities

Author

de Campos, V.A.F. ; da Cruz, J.J. ; Zanetta, L.C.

Author_Institution

Escola Politecnica da Univ. de Sao Paulo

fYear

2006

fDate

Oct. 29 2006-Nov. 1 2006

Firstpage

2180

Lastpage

2187

Abstract

This work presents the application of linear matrix inequalities to the optimal adjustment of power system stabilizers with pre-defined structure, much common in the power industry. Results of some tests show that gain and zeros adjustments are sufficient to guarantee power systems robust stability and performance with respect to various points of operation. Making use of the flexible structure of LMI´s, we propose an algorithm that permits one to choose in the compromise between low gain and high damping factor. The technique used here is the pole placement design together with gain limitation, which places the poles of the closed loop system in a specific region of the complex plane. Results of tests with a nine-machine system (New England-New York) are presented and discussed, in order to validate the algorithm proposed

Keywords

closed loop systems; linear matrix inequalities; pole assignment; power system control; power system stability; closed loop system; linear matrix inequality; nine-machine system; pole placement design; power system stabilizer; Flexible structures; Linear matrix inequalities; Performance gain; Power industry; Power system stability; Power systems; Robust stability; Robustness; State feedback; System testing;

fLanguage

English

Publisher

ieee

Conference_Titel

Power Systems Conference and Exposition, 2006. PSCE '06. 2006 IEEE PES

Conference_Location

Atlanta, GA

Print_ISBN

1-4244-0177-1

Electronic_ISBN

1-4244-0178-X

Type

conf

DOI

10.1109/PSCE.2006.296280

Filename

4076072